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==Description==
==Description==


   
  A tanker (or tank ship or tankship) is a merchant vessel designed to transport or store liquids or gases in bulk. Major types of tankship include the oil tanker, the chemical tanker, and gas carrier. Tankers also carry commodities such as vegetable oils, molasses and wine. Tankers can range in size of capacity from several hundred tons, which includes vessels for servicing small harbours and coastal settlements, to several hundred thousand tons, for long-range haulage.  
A tanker (or tank ship or tankship) is a merchant vessel designed to transport or store liquids or gases in bulk. Major types of tankship include the oil tanker, the chemical tanker, and gas carrier. Tankers also carry commodities such as vegetable oils, molasses and wine. Tankers can range in size of capacity from several hundred tons, which includes vessels for servicing small harbours and coastal settlements, to several hundred thousand tons, for long-range haulage.  


==MSP Challenge==
==MSP Challenge==


   
   
Tanker Intensity is a month-by-month, computer generated data layer showing a 'heat map' of tanker shipping. The shipping simulation considers both international tanker shipping in and out of the entire North Sea region, as well as short sea shipping within the North Sea region.
 
Tanker Intensity is a month-by-month, computer generated data layer showing a 'heat map' of tanker shipping. The shipping simulation considers both international tanker shipping in and out of the entire North Sea region, as well as short sea shipping within the sea region.


The shipping simulation follows this logic:
The shipping simulation follows this logic:


* Month by month, [[Tanker Intensity|tanker]], [[Cargo Intensity|cargo]], [[Passenger Intensity|passenger]] and [[Ferry Intensity|ferry]] ships want to go from specific ports to specific ports, within as well as in and out of the North Sea region.
* Month by month, [[Tanker Intensity|tanker]], [[Cargo Intensity|cargo]], [[Passenger Intensity|passenger]] and [[Ferry Intensity|ferry]] ships want to go from specific ports to specific ports, within as well as in and out of the sea region.
* These ships find a safe yet short route for their travels. Ideally they move in a straight line. To ensure the route is safe, they will opt for deeper waters and designated [[Shipping Routes|shipping lanes]] applicable to their type.  
* These ships find a safe yet short route for their travels. Ideally they move in a straight line. To ensure the route is safe, they will opt for deeper waters and designated [[Shipping Routes|shipping lanes]] applicable to their type.  
* More ships following the same route means a higher intensity of ships that month, and thus redder lines on the intensity 'heat map' layers.
* More ships following the same route means a higher intensity of ships that month, and thus redder lines on the intensity 'heat map' layers.
   
   
 
Return to [[Categories and Layers#tab=Shipping|shipping]].
   
   
=North Sea=
=North Sea=
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==Metadata==
==Metadata==
===Data Source===
Not applicable.
Enter data source for North Sea here.
 
===Original Title===
Enter name of the layer at the North Sea source.


===Description===
This layer is computer generated by our Shipping Model.
Enter the description of the North Sea dataset here.


===Creation Date===
[https://community.mspchallenge.info/wiki/Models_in_the_platform More info].
yyyy-mm-dd North Sea
 
===Methodology===
Enter here how the layer was prepared to be integrated into the MSP Challenge North Sea Edition.


=Baltic Sea=
=Baltic Sea=
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==Metadata==
==Metadata==
===Data Source===
Not applicable.


This layer is originated by our dynamic model SEL.
This layer is computer generated by our Shipping Model.


===Original Title===
[https://community.mspchallenge.info/wiki/Models_in_the_platform More info].
 
Not applicable
 
===Description===
 
Not applicable
 
===Creation Date===
 
Not applicable
 
===Methodology===
 
The core shipping simulation is generic (meaning it doesn't depend on a specific region) and was developed by Breda University of Applied Sciences' Phil de Groot, based on collaboration with several colleagues (notably Carlos Santos and Wilco Boode). As a separate application, it takes input data from the MSP Challenge server on the different shipping routes and port within each edition to calculate the (future) impact of MSP decisions on shipping routes. This is dynamically shown in key performance indicators (e.g. route efficiencies) and visualised in heat maps of ship traffic.
 
Read more about SEL's design and implementation [https://pure.buas.nl/en/publications/a-shipping-simulation-through-pathfinding-sel-within-the-msp-chal in this paper] written for and presented at the Game-On 2019 conference in Breda, the Netherlands.


=Clyde Marine Region=
=Clyde Marine Region=
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==Metadata==
==Metadata==
===Data Source===
Not applicable.
Enter data source for Clyde Marine Region here.
 
===Original Title===
 
Enter name of the layer at the source.
 
===Description===
Enter the description of the Clyde Marine Region dataset here.
 
===Creation Date===
yyyy-mm-dd Clyde Marine Region


===Methodology===
This layer is computer generated by our Shipping Model.


Enter here how the layer was prepared to be integrated into the MSP Challenge.
[https://community.mspchallenge.info/wiki/Models_in_the_platform More info].


=Adriatic Sea=
=Adriatic Sea=
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==Metadata==
==Metadata==
===Data Source===
Not applicable.
Enter data source for Adriatic Sea here.
 
===Original Title===
 
Enter name of the layer at the source.
 
===Description===
Enter the description of the Adriatic Sea dataset here.
 
===Creation Date===
yyyy-mm-dd Adriatic Sea


===Methodology===
This layer is computer generated by our Shipping Model.


Enter here how the layer was prepared to be integrated into the MSP Challenge.
[https://community.mspchallenge.info/wiki/Models_in_the_platform More info].


<headertabs/>
<headertabs/>

Revision as of 11:19, 10 May 2022

Tanker Intensity
Layer Tanker Intensity.png
Layer Info
Category Activities
Sub-category Shipping activity

Description

A tanker (or tank ship or tankship) is a merchant vessel designed to transport or store liquids or gases in bulk. Major types of tankship include the oil tanker, the chemical tanker, and gas carrier. Tankers also carry commodities such as vegetable oils, molasses and wine. Tankers can range in size of capacity from several hundred tons, which includes vessels for servicing small harbours and coastal settlements, to several hundred thousand tons, for long-range haulage. 

MSP Challenge

Tanker Intensity is a month-by-month, computer generated data layer showing a 'heat map' of tanker shipping. The shipping simulation considers both international tanker shipping in and out of the entire North Sea region, as well as short sea shipping within the sea region.

The shipping simulation follows this logic:

  • Month by month, tanker, cargo, passenger and ferry ships want to go from specific ports to specific ports, within as well as in and out of the sea region.
  • These ships find a safe yet short route for their travels. Ideally they move in a straight line. To ensure the route is safe, they will opt for deeper waters and designated shipping lanes applicable to their type.
  • More ships following the same route means a higher intensity of ships that month, and thus redder lines on the intensity 'heat map' layers.

Return to shipping.

Types

  • 0 to 500 ship
  • 500 to 1000 ship
  • 1000 to 2000 ship
  • 2000 to 3000 ship
  • >3000 ship

Metadata

Not applicable.

This layer is computer generated by our Shipping Model.

More info.

Types

  • Extremely Low
  • Low
  • Medium
  • High
  • Extra High

Metadata

Not applicable.

This layer is computer generated by our Shipping Model.

More info.

Types

  • 0 to 125 ship
  • 125 to 250 ship
  • 250 to 375 ship
  • 375 to 500 ship
  • 500+ ship

Metadata

Not applicable.

This layer is computer generated by our Shipping Model.

More info.

Types

  • Extremely Low
  • Low
  • Medium
  • High
  • Extremely High

Metadata

Not applicable.

This layer is computer generated by our Shipping Model.

More info.

This page was last edited on 10 May 2022, at 11:19. Content is available under GPLv3 unless otherwise noted.